Experimental evaluation of the “polished panel optical receiver” concept on the Deep Space Network's 34 meter antenna

V. Vilnrotter
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引用次数: 3

Abstract

The potential development of large aperture ground-based “photon bucket” optical receivers for deep space communications has received considerable attention recently1. One approach currently under investigation proposes to polish the aluminum reflector panels of 34-meter microwave antennas to high reflectance, and accept the relatively large spotsize generated by even state-of-the-art polished aluminum panels. Here we describe the experimental effort currently underway at the Deep Space Network (DSN) Goldstone Communications Complex in California, to test and verify these concepts in a realistic operational environment. A custom designed aluminum panel has been mounted on the 34 meter research antenna at Deep-Space Station 13 (DSS-13), and a remotely controlled CCD camera with a large CCD sensor in a weather-proof container has been installed next to the subreflector, pointed directly at the custom polished panel. Using the planet Jupiter as the optical point-source, the point-spread function (PSF) generated by the polished panel has been characterized, the array data processed to determine the center of the intensity distribution, and expected communications performance of the proposed polished panel optical receiver has been evaluated.
“抛光面板光接收机”概念在深空网络34米天线上的实验评估
用于深空通信的大口径地基“光子桶”光接收机的潜在发展近年来受到了相当大的关注。目前正在研究的一种方法是,将34米微波天线的铝反射板抛光到高反射率,并接受即使是最先进的抛光铝板也会产生相对较大的斑点。在这里,我们描述了目前正在加利福尼亚州深空网络(DSN) Goldstone通信综合体进行的实验工作,以在现实的操作环境中测试和验证这些概念。一个定制设计的铝板已经安装在深空空间站13号34米的研究天线上,一个远程控制的CCD相机和一个大型CCD传感器安装在一个防风雨的容器中,安装在副反射器旁边,直接指向定制的抛光板。以木星为光点源,对抛光面板产生的点扩散函数(PSF)进行了表征,对阵列数据进行了处理,确定了强度分布的中心,并对所提出的抛光面板光接收机的预期通信性能进行了评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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